Iron is an essential element for plants as well as other organisms, functioning in various
cellular processes, including respiration, chlorophyll biosynthesis, and photosynthesis …

Iron is an essential micronutrient with numerous cellular functions, and its deficiency
represents one of the most serious problems in human nutrition worldwide. Plants have two …

Iron is an essential micronutrient for most living organisms. Paradoxically, although iron is
abundant in many soils, iron availability is very often limiting for plant growth. In addition …

Iron is an essential element for plant growth and development. While abundant in soil, the
available Fe in soil is limited. In this regard, plants have evolved a series of mechanisms for …

Iron uptake in plants is highly regulated in order to supply amounts sufficient for optimal
growth while preventing excess accumulation. In response to iron deficiency, plants induce …

Iron is essential for plant cell function and more specifically for photosynthesis. Plants have
evolved highly efficient systems to take up iron from the soil. However, activating iron uptake …

Iron is essential for plants but is not readily accessible and is also potentially toxic. As plants
are a major dietary source of iron worldwide, understanding plant iron homeostasis is pivotal …

Cellular and whole organism iron homeostasis must be balanced to supply enough iron for
metabolism and to avoid excessive, toxic levels. To perform iron uptake from the …

Changes between iron redox states (ferrous or ferric) drive numerous reactions involving
electron transfer that are important for plants. However, there is great variaton in the …

Iron is essential for the survival and proliferation of all plants. Higher plants have developed
two distinct strategies to acquire iron, which is only slightly soluble, from the rhizosphere: the …